CN214484427U - Mop bucket suit - Google Patents

Abstract

The utility model discloses a mop barrel external member, which comprises a barrel body and a collodion mop; the upper part of the barrel body is provided with an extrusion port; the collodion mop comprises a frame body, a mop rod connected to the upper end of the frame body, a mop plate rotatably connected to the lower part of the frame body, and collodion arranged at the lower end of the mop plate; the mop plate comprises two collodion plates which can rotate oppositely; the frame body is provided with a stop part for limiting the movement of the collodion cotton plate; under the water squeezing state, one collodion plate rotates relative to the frame body until the collodion plate is abutted against the stop part, and the collodion plate rotates relative to the frame body until the collodion plate faces upwards; when the collodion plate is inserted into the extrusion opening from top to bottom, the collodion plate which is not contacted with the stop part rotates towards the collodion plate which is contacted with the stop part to extrude and dewater the collodion, and in the process, the mop plate is always positioned in the area of the barrel body. When water is squeezed, the collodion is always positioned in the barrel area and cannot extend to the outer side of the barrel body, so that water is prevented from splashing.

Description

Mop bucket suit

Technical Field

The utility model relates to the technical field of cleaning tools, in particular to a mop bucket external member.

Background

The Chinese patent document with the document number of CN111839389A discloses a hand-free scrubbing and wringing collodion cotton mop bucket, which relates to the technical field of cleaning tools and comprises a bucket body and a collodion cotton mop; a brushing component for brushing the collodion mop is arranged at the bottom in the barrel body; the brushing component comprises two brushes and a linkage piece; the linkage piece enables the horizontal movement directions of the two brushes to be opposite; a power storage assembly capable of driving the cleaning brush to reciprocate horizontally along the length direction of the barrel body is arranged in the barrel body; the lower end of the collodion mop is provided with collodion; when the collodion is abutted against the hairbrush, the hairbrush which moves horizontally back and forth enables the collodion to be brushed cleanly; a wringing component for wringing the collodion cotton is arranged on one side of the upper part in the barrel body; the squeezing process of the collodion can enable the power storage component to store power. The invention has the roller for squeezing the collodion, has small friction force, has the cleaning brush which can avoid manually brushing the collodion, can accumulate the elasticity for driving the cleaning brush to move when squeezing the collodion, is easy to clean, is simple to use and is convenient to operate.

Above-mentioned patent is crowded water in-process, and the glued membrane will have some to extend to the staving outside, leads to the water droplet on the glued membrane to spatter subaerially, needs the user to clean ground once more, influences normal use.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: aiming at the defects existing in the prior art, the mop bucket kit which can not splash water to the outer side of the bucket body is provided.

In order to realize the purpose of the utility model, the following technical scheme is adopted to realize: a hand-free scrubbing and wringing collodion mop barrel kit comprises a barrel body and a collodion mop; the upper part of the barrel body is provided with an extrusion opening, and the extrusion opening is arranged on one side of the barrel body.

The collodion mop comprises a frame body, a mop rod connected to the upper end of the frame body, a mop plate rotatably connected to the lower part of the frame body, and collodion arranged at the lower end of the mop plate; the mop plate comprises two collodion plates which can rotate in opposite directions.

The frame body is provided with a stop part for limiting the movement of the collodion board.

Under the water squeezing state, one collodion plate rotates relative to the frame body until the collodion plate is abutted against the stop part, and the collodion plate rotates relative to the frame body until the collodion plate faces upwards.

When the collodion plate is inserted into the extrusion opening from top to bottom, the collodion plate which is not contacted with the stop part rotates towards the collodion plate which is contacted with the stop part to extrude and dewater the collodion, and in the process, the mop plate is always positioned in the area of the barrel body.

As a preferable scheme: the mop plate also comprises a connecting piece, and the two collodion cotton plates are respectively and rotatably connected to two sides of the connecting piece; the rotating shaft of the connecting piece relative to the frame body is parallel to the rotating shaft of the connecting piece relative to the collodion board.

As a preferable scheme: the rotating shafts of the two collodion boards are overlapped and are rotatably connected with the lower part of the frame body.

As a preferable scheme: the stop part is formed or fixedly connected on the frame body.

Alternatively, the first and second electrodes may be,

the stop part is movably arranged on the frame body.

As a preferable scheme: the mop plate comprises a frame body, a connecting piece and positioning components, wherein the frame body is U-shaped, two sides of the connecting piece are respectively connected with two end parts of the frame body in a rotating mode, the positioning components are arranged between the frame body and the connecting piece, and the positioning components enable the mop plate to be positioned in a mutually perpendicular state relative to the frame body.

As a preferable scheme: the inner wall of the frame body is provided with an inserting column which is rotationally connected with the connecting piece; the insertion column extends into the connecting piece.

More than one positioning groove is formed in the outer wall of the insertion column; a positioning part which can be abutted against the positioning groove is connected in the connecting piece in a sliding manner; and a positioning spring is arranged between the positioning part and the connecting piece.

As a preferable scheme: a water squeezing frame is arranged on one side of the upper part of the barrel body; the extrusion opening is arranged on the water extrusion frame.

As a preferable scheme: more than one water squeezing roller is rotatably connected to one side of the water squeezing frame, which is positioned at the squeezing port and close to the center of the barrel body.

As a preferable scheme: and a limiting block is arranged at the outer end of the collodion plate, and when the collodion plate moves downwards to a limit position relative to the water squeezing opening, the limiting block abuts against the water squeezing frame.

Compared with the prior art, the beneficial effects of the utility model are that: when the water-saving bucket is used, water is added into the bucket body, and the water level height cannot exceed the water level mark.

Then the collodion mop is rotated to enable the stopping part to face the water squeezing frame, and then the collodion mop is inserted into the barrel body for cleaning.

When the mop needs to be squeezed, the collodion mop is lifted upwards, the collodion plate positioned below the wringing frame is in contact with the wringing frame, the wringing frame forces the mop plate to rotate, the positioning part is separated from the positioning groove until the collodion plate at the other side is abutted against the stopping part, and the connecting piece is positioned above the wringing frame. And then the collodion mop is moved towards the direction of the extrusion opening, so that the collodion mop is positioned right above the extrusion opening, the collodion mop is inserted into the extrusion opening, the water squeezing roller and the stopping part force the two collodion plates to rotate oppositely, and water in the collodion is squeezed out.

When the collodion mop is pressed down to the limit block to be contacted with the water squeezing stick, the collodion mop is pulled upwards to be separated from the squeezing opening, and then the mop plate is rotated to enable the collodion to face downwards.

During the wringing process, the stop part limits the rotation of one collodion plate, so that the collodion plate can not rotate to the outer side of the barrel body, and water drops on the collodion are prevented from splashing on the ground.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the exploded structure of the collodion mop of the present invention.

Fig. 3 is a schematic structural view of the wringing rack of the present invention.

Fig. 4 is a schematic view of the frame body structure of the present invention.

Fig. 5 is a schematic sectional structure diagram of the connector of the present invention.

Fig. 6 and 7 are schematic structural views in the water squeezing process of the present invention.

Fig. 8 is a frame structure diagram of embodiment 3 of the present invention.

Fig. 9 is a schematic structural view of the collodion mop of embodiment 3 of the present invention during squeezing.

10. A barrel body; 11. a handle; 21. a water squeezing frame; 211. clamping a head; 213. an extrusion port; 22. a water squeezing stick; 221. a rotating shaft; 5. a collodion mop; 51. a frame body; 511. a stopper portion; 512. inserting the column; 5121. positioning a groove; 513. a stopper slide groove; 54. a collodion board; 542. a limiting block; 544. the collodion board rotates the hole; 55. collodion cotton; 58. a mop rod; 59. a connecting member; 591. a frame body connecting hole; 592. a connector rotation hole; 593. a positioning part containing groove; 61. a pin shaft; 62. collodion plate torsion spring; 63. a positioning part.

Detailed Description

Example 1

Referring to fig. 1 to 7, the non-manual scrubbing and wringing collodion mop bucket kit of the present embodiment includes a bucket body 10 and a collodion mop 5; the upper part of the barrel body is provided with an extrusion opening, the extrusion opening is arranged on one side 213 of the barrel body, and the extrusion opening is arranged on one side of the barrel body.

The collodion mop comprises a frame body 51, a mop rod 58 connected to the upper end of the frame body, a mop plate rotatably connected to the lower part of the frame body, and collodion 55 arranged at the lower end of the mop plate; the mop plate includes two collodion plates 54 that can be rotated in opposite directions.

The frame body is provided with a stop part 511 for limiting the movement of the collodion board.

Under the water squeezing state, one collodion plate rotates relative to the frame body until the collodion plate is abutted against the stop part, and the collodion plate rotates relative to the frame body until the collodion plate faces upwards.

When the collodion plate is inserted into the extrusion opening from top to bottom, the collodion plate which is not contacted with the stop part rotates towards the collodion plate which is contacted with the stop part to extrude and dewater the collodion, and in the process, the mop plate is always positioned in the area of the barrel body.

The mop plate also comprises a connecting piece 59, and the two collodion cotton plates are respectively and rotatably connected to the two sides of the connecting piece; the rotating shaft of the connecting piece relative to the frame body is parallel to the rotating shaft of the connecting piece relative to the collodion board.

The stopping part is formed on the frame body and is positioned on one side of the frame body along the length direction of the mop plate; when the collodion board moved to and the locking part was close to one side at support body center and offseted, the center of this collodion board was located between support body center and the locking part, avoided influencing the rotation of another side collodion board, and then when the collodion mop inserted the extrusion mouth completely, two collodion boards all towards the top, contained angle between each collodion board and the vertical plane was less than 10.

Connector rotating holes 592 are formed in both sides of both side walls of the connector in the width direction, respectively; a collodion plate rotating hole 544 which is rotatably connected with the connecting piece rotating hole through a pin shaft 61 is formed at the position of the collodion plate close to the connecting piece; the periphery of round pin axle is located and installs glued membrane torsional spring 62 between glued membrane and the connecting piece for under no exogenic action, two glued membranes all are in the state parallel with the connecting piece.

The mop plate comprises a frame body, a connecting piece and positioning components, wherein the frame body is U-shaped, two sides of the connecting piece are respectively connected with two end parts of the frame body in a rotating mode, the positioning components are arranged between the frame body and the connecting piece, and the positioning components enable the mop plate to be positioned in a mutually perpendicular state relative to the frame body.

The inner wall of the frame body is provided with an inserting column 512 which is rotationally connected with the connecting piece; the insertion column extends into the connecting piece.

More than one positioning groove 5121 is formed on the outer wall of the plug column; a positioning part 63 which can be abutted against the positioning groove is connected in the connecting piece in a sliding manner; and a positioning spring is arranged between the positioning part and the connecting piece.

A positioning part containing groove 593 is formed in the top of the connecting piece; the positioning part is longitudinally connected in the positioning part containing groove in a sliding manner.

The positioning spring is arranged between the positioning part and the inner top of the positioning part containing groove.

A water squeezing frame 21 is arranged on one side of the upper part of the barrel body; the extrusion opening is arranged on the water extrusion frame. When the collodion mop is positioned in the barrel body, the water squeezing frame is positioned right above one collodion plate.

The periphery of the lower end of the wringing frame is uniformly provided with a plurality of clamping heads 211 which are clamped with the barrel body.

And one side of the water squeezing frame, which is positioned at the squeezing port and close to the center of the barrel body, is rotatably connected with two water squeezing sticks 22. The water squeezing stick is rotatably connected with the water squeezing frame through a rotating shaft 221.

The outer end position of the collodion plate is provided with a limiting block 542, when the collodion plate moves downwards to the limit position relative to the water squeezing port, the limiting block is abutted against the water squeezing roller on the water squeezing frame, and the mop plate is prevented from penetrating through the water squeezing frame and completely entering the barrel body.

A water level mark 12 is arranged on the inner wall of the barrel body; when the limiting block is abutted against the water squeezing stick, the mop plate is positioned above the water level mark.

The upper part of the barrel body is rotatably connected with a handle 11.

When the water-saving bucket is used, water is added into the bucket body, and the water level height cannot exceed the water level mark.

Then the collodion mop is rotated to enable the stopping part to face the water squeezing frame, and then the collodion mop is inserted into the barrel body for cleaning.

When the mop needs to be squeezed, the collodion mop is lifted upwards, the collodion plate positioned below the wringing frame is in contact with the wringing frame, the wringing frame forces the mop plate to rotate, the positioning part is separated from the positioning groove until the collodion plate at the other side is abutted against the stopping part, and the connecting piece is positioned above the wringing frame. And then the collodion mop is moved towards the direction of the extrusion opening, so that the collodion mop is positioned right above the extrusion opening, the collodion mop is inserted into the extrusion opening, the water squeezing roller and the stopping part force the two collodion plates to rotate oppositely, and water in the collodion is squeezed out.

When the collodion mop is pressed down to the limit block to be contacted with the water squeezing stick, the collodion mop is pulled upwards to be separated from the squeezing opening, and then the mop plate is rotated to enable the collodion to face downwards.

During the wringing process, the stop part limits the rotation of one collodion plate, so that the collodion plate can not rotate to the outer side of the barrel body, and water drops on the collodion are prevented from splashing on the ground.

Example 2

The present embodiment is different from embodiment 1 in that: the rotating shafts of the two collodion boards are overlapped and are rotatably connected with the lower part of the frame body.

When the collodion is squeezed, the collodion faces upwards, and the collodion mop is inserted into the squeezing port, so that the two collodion plates rotate oppositely to squeeze the collodion.

Example 3

As shown in fig. 8 to 9, the present embodiment is different from embodiment 1 in that: the stopping part is connected to the frame body in a sliding mode.

Two sides of the frame body along the width direction of the mop plate are respectively provided with a transverse stop part sliding groove 513; the stop part is connected in the stop part sliding groove in a sliding mode. The stop may be a male and female screw.

Compare in embodiment 1, no matter the collodion mop is forward or in the backward staving of putting into, during crowded water state, the collodion board that offsets with the detent homoenergetic drives the detent and removes to staving outside direction for this collodion board is and is close vertical state, the crowded water of the collodion of being convenient for.

Claims (9)

1. A mop bucket kit comprises a bucket body and a collodion mop; the upper part of the barrel body is provided with an extrusion opening, and the extrusion opening is arranged on one side of the barrel body; the collodion mop comprises a frame body, a mop rod connected to the upper end of the frame body, a mop plate rotatably connected to the lower part of the frame body, and collodion arranged at the lower end of the mop plate; the mop plate comprises two collodion plates which can rotate oppositely; the method is characterized in that: the frame body is provided with a stop part for limiting the movement of the collodion cotton plate; under the water squeezing state, one collodion plate rotates relative to the frame body until the collodion plate is abutted against the stop part, and the collodion plate rotates relative to the frame body until the collodion plate faces upwards; when the collodion plate is inserted into the extrusion opening from top to bottom, the collodion plate which is not contacted with the stop part rotates towards the collodion plate which is contacted with the stop part to extrude and dewater the collodion, and in the process, the mop plate is always positioned in the area of the barrel body.

2. A mop bucket kit as defined in claim 1 wherein: the mop plate also comprises a connecting piece, and the two collodion cotton plates are respectively and rotatably connected to two sides of the connecting piece; the rotating shaft of the connecting piece relative to the frame body is parallel to the rotating shaft of the connecting piece relative to the collodion board.

3. A mop bucket kit as defined in claim 1 wherein: the rotating shafts of the two collodion boards are overlapped and are rotatably connected with the lower part of the frame body.

4. A mop bucket kit as defined in claim 1 wherein: the stop part is formed or fixedly connected on the frame body; or the stopping part is movably arranged on the frame body.

5. A mop bucket kit as defined in claim 2 wherein: the mop plate comprises a frame body, a connecting piece and positioning components, wherein the frame body is U-shaped, two sides of the connecting piece are respectively connected with two end parts of the frame body in a rotating mode, the positioning components are arranged between the frame body and the connecting piece, and the positioning components enable the mop plate to be positioned in a mutually perpendicular state relative to the frame body.

6. A mop bucket kit as claimed in claim 2 or claim 5, wherein: the inner wall of the frame body is provided with an inserting column which is rotationally connected with the connecting piece; the insertion column extends into the connecting piece;

more than one positioning groove is formed in the outer wall of the insertion column; a positioning part which can be abutted against the positioning groove is connected in the connecting piece in a sliding manner; and a positioning spring is arranged between the positioning part and the connecting piece.

7. A mop bucket kit as defined in claim 1 wherein: a water squeezing frame is arranged on one side of the upper part of the barrel body; the extrusion opening is arranged on the water extrusion frame.

8. A mop bucket kit as defined in claim 7 wherein: more than one water squeezing roller is rotatably connected to one side of the water squeezing frame, which is positioned at the squeezing port and close to the center of the barrel body.

9. A mop bucket kit according to claim 7 or 8 wherein: and a limiting block is arranged at the outer end of the collodion plate, and when the collodion plate moves downwards to a limit position relative to the water squeezing opening, the limiting block abuts against the water squeezing frame.

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